Science Club, in all it's glory!
Week 1: Balloon Rocket's
For our first Science Club we had worked on making balloon rockets. Rockets work by way of jet propulsion. The principle behind it is based on Newton's Third Law of Motion: For every action there is an equal and opposite reaction. When a rocket blows out gas at high speed, the rocket is pushed in the opposite direction. Balloon rockets follow the same principles, but in this case the gas is the air inside the balloon. In this project you'll build balloon rocket.
The balloon rocket's went really well and the Jr. Scientist worked quite hard.
For our first Science Club we had worked on making balloon rockets. Rockets work by way of jet propulsion. The principle behind it is based on Newton's Third Law of Motion: For every action there is an equal and opposite reaction. When a rocket blows out gas at high speed, the rocket is pushed in the opposite direction. Balloon rockets follow the same principles, but in this case the gas is the air inside the balloon. In this project you'll build balloon rocket.
The balloon rocket's went really well and the Jr. Scientist worked quite hard.
Sara, Noor, and Mary are ready to bet Andrew's group.
Andrew doesn't think so!!!
Sage and her best buddy, Hannah, are ready to start racing!
We get it, we get it! Can we get started yet, Mrs. Quinn?
Week 2:
The Great Egg Drop
The Egg Drop Experiment: The aim of this project is to design a carrier that will prevent an egg from breaking when dropped from a certain height. The project must fit in within the specifications given. Please, keep in mind that your egg carrier must be able to withstand numerous drops. The materials must be all recyclable materials. May the best team win!